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I saw this post on SO which contains C code to get the latest CPU Cycle count:

CPU Cycle count based profiling in C/C++ Linux x86_64

Is there a way I can use this code in C++ (windows and linux solutions welcome)? Although written in C (and C being a subset of C++) I am not too certain if this code would work in a C++ project and if not, how to translate it?

I am using x86-64


Found this function but cannot get VS2010 to recognise the assembler. Do I need to include anything? (I believe I have to swap uint64_t to long long for windows....?)

static inline uint64_t get_cycles()
  uint64_t t;
  __asm volatile ("rdtsc" : "=A"(t));
  return t;


From above code I get the error:

"error C2400: inline assembler syntax error in 'opcode'; found 'data type'"

Could someone please help?

share|improve this question
"C++ being a subset of C" - did you mean that the other way around? – Mysticial Dec 7 '12 at 23:20
@Mysticial yup :)- edited – user997112 Dec 7 '12 at 23:25
Visual Studio does not support assembly on x86-64. – Mark Ransom Dec 7 '12 at 23:31
@MarkRansom I presume you mean MSVC? I think I have the ICC compiler installed too and just to be sure I am just installing MinGW – user997112 Dec 7 '12 at 23:34
To get uint64_t you should #include <stdint.h> (actually <cstdint> but your compiler is probably too old to have that one.) – Nikos C. Dec 7 '12 at 23:36
up vote 22 down vote accepted

Pulled directly out of one of my projects:

#include <stdint.h>

//  Windows
#ifdef _WIN32

#include <intrin.h>
uint64_t rdtsc(){
    return __rdtsc();

//  Linux/GCC

uint64_t rdtsc(){
    unsigned int lo,hi;
    __asm__ __volatile__ ("rdtsc" : "=a" (lo), "=d" (hi));
    return ((uint64_t)hi << 32) | lo;

share|improve this answer
That's a nice way to package it. – Nik Bougalis Dec 7 '12 at 23:44
Thank you Mystical – user997112 Dec 8 '12 at 0:07
FWIW, gcc 4.5 and newer include __rdtsc() -- #include <x86intrin.h> get it. Header also includes many other intel intrinsics found in Microsoft's <intrin.h>, and it gets included by default these days when you include most any of the SIMD headers -- emmintrin.h, xmmintrin.h, etc. – jstine Jan 18 '13 at 19:23
Fantastic, thank you! – JasonMc92 Oct 8 '15 at 21:32

VC++ uses an entirely different syntax for inline assembly -- but only in the 32-bit versions. The 64-bit compiler doesn't support inline assembly at all.

In this case, that's probably just as well -- rdtsc has (at least) two major problem when it comes to timing code sequences. First (like most instructions) it can be executed out of order, so if you're trying to time a short sequence of code, the rdtsc before and after that code might both be executed before it, or both after it, or what have you (I am fairly sure the two will always execute in order with respect to each other though, so at least the difference will never be negative).

Second, on a multi-core (or multiprocessor) system, one rdtsc might execute on one core/processor and the other on a different core/processor. In such a case, a negative result is entirely possible.

Generally speaking, if you want a precise timer under Windows, you're going to be better off using QueryPerformanceCounter.

If you really insist on using rdtsc, I believe you'll have to do it in a separate module written entirely in assembly language (or use a compiler intrinsic), then linked with your C or C++. I've never written that code for 64-bit mode, but in 32-bit mode it looks something like this:

   xor eax, eax
   xor eax, eax
   xor eax, eax
   ; save eax, edx

   ; code you're going to time goes here

   xor eax, eax

I know this looks strange, but it's actually right. You execute CPUID because it's a serializing instruction (can't be executed out of order) and is available in user mode. You execute it three times before you start timing because Intel documents the fact that the first execution can/will run at a different speed than the second (and what they recommend is three, so three it is).

Then you execute your code under test, another cpuid to force serialization, and the final rdtsc to get the time after the code finished.

Along with that, you want to use whatever means your OS supplies to force this all to run on one process/core. In most cases, you also want to force the code alignment -- changes in alignment can lead to fairly substantial differences in execution spee.

Finally you want to execute it a number of times -- and it's always possible it'll get interrupted in the middle of things (e.g., a task switch), so you need to be prepared for the possibility of an execution taking quite a bit longer than the rest -- e.g., 5 runs that take ~40-43 clock cycles apiece, and a sixth that takes 10000+ clock cycles. Clearly, in the latter case, you just throw out the outlier -- it's not from your code.

Summary: managing to execute the rdtsc instruction itself is (almost) the least of your worries. There's quite a bit more you need to do before you can get results from rdtsc that will actually mean anything.

share|improve this answer
I'm pretty sure when I was researching it, I found documentation that QueryPerformanceCounter (which is a thin veil over rdtsc) suffers from the same problem you identified on multicore/multiprocessor systems. But I think I also found documentation that this problem was a real problem on early systems because most BIOSes didn't even attempt to synchronize the counters on the different cores, but most newer BIOSes (perhaps not counting cheap junk machine BIOSes) do make that effort, so they may be off by only a few counts now. – phonetagger Dec 7 '12 at 23:58
.... But to avoid that possibility entirely, you can set a thread's processor affinity mask so that it will run on only a single core, eliminating this issue entirely. (which I see you also mentioned) – phonetagger Dec 7 '12 at 23:59
QPC can be, but isn't necessarily, a thin veil over rdtsc. At least at one time, the single-processor kernel used rdtsc, but the multiprocessor kernel used the motherboard's 1.024 MHz clock chip instead (for exactly the cited reasons). – Jerry Coffin Dec 8 '12 at 0:01

For Windows, Visual Studio provides a convenient "compiler intrinsic" (i.e. a special function, which the compiler understands) that executes the RDTSC instruction for you and gives you back the result:

unsigned __int64 __rdtsc(void);
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